NJDEP - NJGWS - Open-File Map OFM 109 ...

DEPARTMENT OF ENVIRONMENTAL PROTECTION

(RAMSEY)

WATER RESOURCES MANAGEMENT NEW JERSEY GEOLOGICAL AND WATER SURVEY

74 o 07'30''

5'

41 o 07'30''

67 7

6 Trpsp

7

Prepared in cooperation with the U.S. GEOLOGICAL SURVEY

NATIONAL GEOLOGIC MAPPING PROGRAM

(PARK RIDGE)

2'30''

11

As

Ash

As

11 8 12

Trps

Ash

A s & sh

Trpsp 11

As

As

Trpc

As

Trps

As

Ash

As

Trpm

(NYACK) 74 o 00'

41 o 07'30''

A sh

BEDROCK GEOLOGIC MAP OF THE HACKENSACK QUADRANGLE PASSAIC AND BERGEN COUNTIES, NEW JERSEY OPEN-FILE MAP OFM 109

INTRODUCTION

The Hackensack quadrangle is in the northeast part of the state, in Passaic and Bergen Counties, in a mixed commercial, industrial and residential setting. It is located in the northeastern part of the Piedmont Physiographic Province in the Newark basin. The map area is characterized mainly by relatively subdued topography with elevations of 100 feet or less above sea level, except in the northwestern part where elevations are as much as 300 feet. The south-flowing Passaic, Saddle and Hackensack Rivers are the dominant streams that drain the area. The Oradell Reservoir in the northeastern part of the quadrangle was created by impoundment of the Hackensack River.

STRATIGRAPHY The Hackensack quadrangle is underlain by bedrock of Mesozoic age that was deposited in the Newark basin, a northeast-trending rift basin that contains approximately 24,600 feet of interbedded sedimentary and igneous rocks. These include conglomerate, sandstone, siltstone, and shale of fluvial and lacustrine origin, three tholeiitic basalt formations, and sills, dikes and bodies of Lower Jurassic diabase. The Upper Triassic Passaic Formation is the predominent unit in the map area. It consists of interbedded siltstone and shale in the eastern part of the quadrangle (Trpm) that coarsen westward through sandstone (Trps), into pebbly sandstone (Trpsp), and then conglomeratic sandstone (Trpc). The coarse-grained pebbly sandstone and conglomerate facies is continuous to the north into the Park Ridge quadrangle (Monteverde, 2011) and to the west into the Paterson quadrangle, nearly to the base of the Orange Mountain Basalt (Volkert, 2006). A thin gray bed (Trpg) at the base of a shale and siltstone sequence crops out along Route 80, east of the town of Lodi. The Upper Triassic Lockatong Formation is not exposed in the area of the map and is shown in cross section only. Igneous rocks consist of three small bodies of diabase (Jd) that are present in the southeastern part of the map area. Only one of the bodies crops out; another is no longer exposed, and a third one is known from subsurface boring data.

9 57'30''

Trpsp

Trpsp

9 7 7]

s

A As

As As

Trps

As & sh As

As Ash

Trpm

As & sh

Ash

s

A sA

As & sh

Ash

Ash

Ash

Trpm

As

Ash

As

57'30''

STRUCTURE Bedding

The overall trend of the bedrock units is fairly uniform and is influenced by the location of the quadrangle on the east side of the Watchung syncline, a regional, northeast-plunging fold structure (Drake and others, 1996). Bedding ranges in strike from N.02oE. to N.49oE. and averages N.19oE. (fig. 1). It dips northwest at 5o to 14o and averages 9o.

Faults Small, local, northeast-trending brittle faults typically less than three feet wide deform the Passaic Formation in the southern part of the quadrangle. Because they are so closely spaced they are shown on the map as a single fault. They may extend beyond the area in which they are shown but cannot be traced further because of the poor bedrock exposure. The faults are characterized by closely-spaced fractures, thin zones of breccia and (or) clayey gouge, and slickensides. They strike N.20oE. to N.30oE. and dip northwest at about 65o. Kinematic indicators that consist of slip lineations on fault surfaces and the offset of beds indicate the predominant movement was reverse.

Joints Joints are a common feature in all sedimentary facies of the Passaic Formation. All joints are planar, moderately well formed, and vary in their spacing from less than 1 foot to several feet apart. Surfaces are unmineralized. Joints in pebbly sandstone and sandstone are better developed and more continuous than those in finer-grained rocks, such as siltstone and shale, in which joints are commonly discontinuous over short distances. Two main strike sets were measured in outcrop (fig. 2). They include a northeast-striking joint set that averages N.29oE. and dips southeast, and less commonly, northwest at 65o to 90o, and a northwest-striking joint set that averages N.65oW. and dips northeast, and less commonly, southwest at 62o to 90o. Joints in both sets dip at an average of 82o.

DESCRIPTION OF MAP UNITS

(PATERSON) (YONKERS)

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A

Jd

Diabase (Lower Jurassic) ? Dark-greenish-gray to black, fine-grained, massive, hard

diabase. Composed mainly of calcic plagioclase, clinopyroxene and opaque oxide minerals.

As

Contacts are aphanitic and display chilled, sharp margins against enclosing sedimentary

rocks.

Trpsp 55'

Trpsp

(5)

Trps

(9)

40 o 52'30'' 74 o 07'30''

Base map from U.S. Geological Survey, 1954.

12

TRUE NORTH MAGNETIC NORTH

LOCATION IN NEW JERSEY

APPROXIMATE MEAN DECLINATION, 1999

9 Trps

Trps

As

As

Trpm

Ash

Trpc Trpsp Trps

Passaic Formation (Upper Triassic) (Olsen, 1980; Olsen and others, 2011) ? Interbedded sequence of reddish-brown, and less commonly, maroon or purple conglomeratic sandstone (Trpc), pebbly sandstone (Trpsp), sandstone (Trps), and siltstone, shaly siltstone, and shale (Trpm), separated by olive-gray, dark-gray, or black sandstone, siltstone, and shale

Trpm (Trpg). Conglomeratic sandstone is medium to coarse grained, feldspathic (as much as

Trpg

20 percent feldspar), and locally contains pebble and cobble layers interbedded with

pebbly sandstone and sandstone in upward-fining sequences 3 to 6 feet thick. Clasts are

subangular to subrounded, locally imbricated milky quartz and white or purple quartzite in a

matrix of very coarse- to coarse-grained quartz sand. Pebbly sandstone and sandstone are

coarse-grained, thin- to thick-bedded, planar to cross-bedded with local lensoidal interbeds

of pebble conglomerate generally a few feet or less thick. Sandstone is reddish-brown to

brownish-red, locally gray, fine- to medium-grained, thin- to medium-bedded, planar to

cross-bedded, micaceous, and locally mudcracked and ripple cross-laminated. Root casts

and load casts are common. Siltstone, shaly siltstone, and shale are fine-grained, very thin-

to thin-bedded, planar to ripple cross-laminated, locally fissile, bioturbated, and contain

evaporite minerals. They form rhythmically fining-upward sequences as much as 15 feet

thick that contain local, thin sandstone lenses. Unit is as much as 11,480 ft. thick regionally,

55'

but a thickness of about 8,700 feet is present in the quadrangle.

(10) (10)

(9) Trps

5

6

(11)

Trpm

(10) 6

(10)

(10)

As

(10)

12

Trps

UD

7

10

12

9

Trpm

? ? ?

Trpm

9

Ash

Trpg

12

Ash

Ash

Ash

Ash

5'

(WEEHAWKEN)

Ash 2'30''

SCALE 1:24000

1

1/2

0

1 mile

1000

0

1000

2000

3000

4000

5000

6000

7000 feet

1

1/2

0

1 kilometer

d

A

Jd

Ash

Trl

Lockatong Formation undifferentiated (Upper Triassic) (K?mmel, 1897) ? Cyclical

sequences of mainly gray to greenish-gray and reddish-brown siltstone to silty argillite and

dark-gray to black shale and mudstone. Siltstone is medium-to fine-grained, thin-bedded,

planar to cross-bedded with mudcracks, ripple cross-laminations and locally abundant pyrite.

Shale and mudstone are very-thin-bedded to thinly-laminated, platy, with local desiccation

features. Maximum thickness regionally is as much as 3,500 ft. Unit is not exposed in the

quadrangle and is shown in cross section only.

14

Ash

10

10 11

11 13 9

Jd

10 Jd

Trpm

REFERENCES CITED

A'

Drake, A.A., Jr., Volkert, R.A., Monteverde, D.H., Herman, G.C., Houghton, H.F., Parker, R.A., and Dalton, R.F., 1996, Bedrock Geologic Map of Northern New Jersey: U.S. Geological Survey Miscellaneous Investigations Series Map I-2540-A, scale 1:100,000.

K?mmel, H.B., ca. 1900, unpublished data on file in the office of the New Jersey Geological Survey, Trenton, New Jersey.

_______, 1897, The Newark System report of progress: New Jersey Geological Survey Annual Report of the State Geologist 1896, Trenton, New Jersey, p. 25-88.

Monteverde, D.H., 2011, Bedrock geology of the Park Ridge quadrangle, Bergen County, New Jersey: New Jersey Geological Survey Open File Map OFM 85, scale 1:24,000.

Olsen, P.E., 1980, The Latest Triassic and Early Jurassic formations of the Newark Basin (Eastern North America Newark Supergroup): Stratigraphy, structure and correlation: New Jersey Academy of Science Bulletin, v. 25, no. 2, p. 25-51.

Olsen, P.E., Kent, D.V., and Whiteside, J.H., 2011, Implications of the Newark Supergroup-based astrochronology and geomagnetic polarity time scale (Newark-APTS) for the tempo and mode of the early diversification of the Dinosauria, Earth and Environmental Science Transactions of the Royal Society of Edinburgh, v. 101, p. 1-33.

Parker, R.A., 1993, Stratigraphic relations of the sedimentary rocks below the Lower Jurassic Orange Mountain Basalt, northern Newark basin, New Jersey and New York: U.S. Geological Survey Miscellaneous Field Studies Map MF-2208, scale 1:100,000.

Stanford, S.D., 1994, Surficial geology of the Hackensack quadrangle, Bergen and Passaic Counties, New Jersey: New Jersey Geological Survey Open File Map OFM 14, scale 1:24,000.

Volkert, R.A., 2006, Bedrock geologic map of the Paterson quadrangle, Passaic, Essex and Bergen Counties, New Jersey: New Jersey Geological Survey Geologic Map Series GMS 06-6, scale 1:24,000.

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40 o 52'30''

Research supported Geological Mapping

74 o

Bedrock geology mapped by R.A. Volkert in 2013 Digital cartography by M.W. Girard

by the U. S. Geological Survey, National Cooperative Program, under USGS award number 99HQAG0141

00(C' ENTRAL

PARK)

The views and conclusions contained in this document are those of the author

and should not be interpreted as necessarily representing the official

policies, either expressed or implied, of the U. S. Government.

EXPLANATION OF MAP SYMBOLS

?

Contact - Queried where uncertain

Fault - Queried where uncertain. Ball and bar show direction of dip.

D U

? Reverse fault - U, upthrown side; D, downthrown side

CONTOUR INTERVAL 20 FEET

DATUM IS MEAN SEA LEVEL

BEDROCK GEOLOGIC MAP OF THE HACKENSACK QUADRANGLE PASSAIC AND BERGEN COUNTIES, NEW JERSEY

by Richard A. Volkert

2015

CORRELATION OF MAP UNITS NEWARK BASIN

Jd Intrusive Contacts

JURASSIC

Trpc

Trpsp

Trps

Trpm Trl

Trpg

TRIASSIC

PLANAR FEATURES

10

Strike and dip of beds. Dip numbers in parenthesis are from K?mmel (1900) and Parker (1993) of outcrops no longer exposed.

OTHER FEATURES

Bedrock outcrop or float used to draw contact

A

Location of well or boring from Stanford (1994).

Abbreviations: s, sandstone; sh, shale; d, diabase

(ORANGE)

Saddle River Garden State Parkway Hackensack River

N

Average strike = N19oE Sector angle = 10o n = 45

30 20 10

%

10 20 30

A FEET

1,000

SEA LEVEL

Trpsp

-1,000

Trps

-2,000

-3,000

Trpm

Jd Trl

Trpm Trl

A' FEET 1,000 SEA LEVEL -1,000 -2,000 -3,000

Figure 1. Rose diagram of bedding

Average strike = N29oE

N

Average strike = N65oW

Sector angle = 10o

n = 97

%

12 9 6

6 9 12

Figure 2 . Rose diagram of joint strikes in sedimentary rocks.

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